141 Research Journal of Fisheries and Hydrobiology, 6(3): 141-155, 2011 ISSN 1816-9112 ORIGINAL ARTICLES The Probability of Karun River and Khozestan City Environmental Pollution Due to Seismic Response of Karun-4 Dam Zaniar Tokmechi Department of Civil Engineering, Mahabad Branch, Islamic Azad University, Mahabad, Iran ABSTRACT The Karun-4 dam is a hydroelectric dam on the Karun River in the province of Chaharmahal and Bakhtiari, Iran. The Karun has the highest discharge of Iran's rivers. The objectives of the construction of Karun-4 dam and hydroelectric power plant are electric power supply and flood control. Historically Khuzestan is what historians refer to as ancient Elam, whose capital was in Susa. The Achaemenid Old Persian term for Elam was Hujiya, which is present in the modern name. Khuzistan, meaning the Land of the Khuzi refers to the original inhabitants of this province, the Susian people, Old Persian Huza or Huja (as in the inscription at the tomb of King Darius I at Naqsh-e Rostam, (the Shushan of the Hebrew sources) where it is recorded as inscription as Hauja or Huja. This is in conformity with the same evolutionary process where the Old Persian changed the name Sindh into Hind /Hindustan. In Middle Persian the term evolves into Khuz and Kuzi The pre- Islamic Partho-Sassanid Inscriptions gives the name of the province as Khwuzestan. In this paper, the probability of environmental pollution due to heavy metals caused by KARUN-4 dam failure is studied. Finite Element and ZENGAR methods are used to analyze the probability of pollution at dam downstream. Different dam cross sections and various loading conditions are considered to study the effects of these factors on the seismic behavior of the dam. Results show that the effect of the highest cross section is not the most significant for heavy metals pollution at the dam down stream. Pollution coefficient due to stress along Y axis (Sy) is always the determinant pollution. While, in all sections Sx and Sy are the determinant parameter affecting downstream heavy metal pollution and normally are bigger than Sz. And, Sz which can never be a determinant. According to results, when the earthquake accelerations are bigger, maximum pollution coefficient due to tensile stress at dam basement is increased. While, the pollution due the maximum compressive stress at dam basement depends on both earthquake acceleration and loading condition. Key words: Environmental pollution, Seismic Response, KARUN-4 dam, ZENGAR, FEM Introduction The Karun-4 dam is a concrete double arch type and 230 meters (750 ft) high from the foundation. The arch dam design is an ideal one for a dam built in a narrow, rocky gorge to hold back water in a reservoir. The dam is curved. Because of the arch shape, the force of the backed up water presses downward against the dam and has the effect of strengthening the dam foundation. Khozestan is one of the 30 provinces of Iran. It is in the southwest of the country, bordering Iraq's Basra Province and the Persian Gulf. Its capital is Ahwaz and covers an area of 63,238 km². Other major cities include Behbahan, Abadan, Andimeshk, Khorramshahr, Bandar Imam, Dezful, Shushtar, Omidiyeh, Izeh, Baq-e-Malek, Mah Shahr, Dasht-i Mishan/Dasht-e-Azadegan, Ramhormoz, Shadegan, Susa, Masjed Soleiman, Minoo Island and Hoveizeh. Figure 2 shows the place of Khozestan in Iran. The seismic action on dams is the most important to be considered in dams safety studies and its effects on the environmental pollution (United States Army Corps of Engineers, 1990). In 21st century, hydraulic power exploitation and hydraulic engineering construction have been improved in many countries. Some high dams over 200m, even 300m in height, have been built in many areas of the world (Jianping et al., 2006). Pollution is the introduction of contaminants into a natural environment that causes instability, disorder, harm or discomfort to the ecosystem i.e. physical systems or living organisms (Mohsenifar et al., 2011; Allahyaripur et al., 2011). Pollution can take the form of chemical substances or energy, such as noise, heat, or light. Pollutants, the elements of pollution, can be foreign substances or energies (Arabian and Entezarei, 2011), or naturally occurring; when naturally occurring, they are considered contaminants when they exceed natural Corresponding Author: Zaniar Tokmechi, Department of Civil Engineering, Mahabad Branch, Islamic Azad University, Mahabad, Iran, Tel: +98-918-873-1933, Fax: +98-871-3229437, E-mail: [email protected] 142 Res. J. Fish & Hydrobiol., 6(3): 141-155, 2011 levels (Arbabian et al., 2011; Hosseini and Sabouri, 2011). Pollution is often classed as point source or no point source pollution. Pollution has always been with us. According to articles in different journals soot found on ceilings of prehistoric caves provides ample evidence of the high levels of pollution that was associated with inadequate ventilation of open fires. The forging of metals appears to be a key turning point in the creation of significant air pollution levels outside the home (Core samples of glaciers in Greenland indicate increases in pollution associated with Greek, Roman and Chinese metal production. According to the statistics, the construction regions in many areas, are notable for their high environmental pollution (Wang and Li, 2006; Qasim et al., 2010 a; Qasim et al., 2010 b). Therefore, environmental studies affected by the seismic safety of large dams is one of the key problems that need to be solved in the design of dams. While, difficulties exist in determining the seismic response of dams (United States Army Corps of Engineers, 1995). The most important difficulty is dams complex geometry and forms, motivated by the topography and geotechnical character of the implantation zone and controlling the project pollution effects. According to the previous studies, usually 2D models corresponding to the higher section the dam have been used in the structural seismic analyses of the dams (Fenves and Chopra, 1984). While, normally there is a lot of variation in the dam foundation geometry which can be extremely make the study of the dam downstream pollution difficult. In this paper, the probability of environmental pollution caused by KARUN-4 dam failure is studied. Finite Element and ZENGAR methods are used to analyze the probability of pollution at dam downstream. Different dam cross sections and various loading conditions are considered to study the effects of these factors on the probability of environmental pollution due to seismic behavior of the dam. Materials and Methods KARUN-4 Dam: The Karun-4 dam is a hydroelectric dam on the Karun River in the province of Chaharmahal and Bakhtiari, Iran. The Karun has the highest discharge of Iran's rivers. The objectives of the construction of Karun-4 dam and hydroelectric power plant are electric power supply and flood control. The dam withholds a reservoir with a surface area of 29 square kilometers (11 sq mi) and capacity of 2.19 cubic kilometers. The dam started producing electricity in March 2010. On December 11, 2010, the second generator for the dam became operational and was connected to the grid. The dam will eventually have an installed capacity of 1,000 MW. Figure 1 shows the Karun-4 dam. Khozestan Province: Historically Khuzestan is what historians refer to as ancient Elam, whose capital was in Susa. The Achaemenid Old Persian term for Elam was Hujiya, which is present in the modern name. Khuzistan, meaning the Land of the Khuzi refers to the original inhabitants of this province, the Susian people, Old Persian Huza or Huja (as in the inscription at the tomb of King Darius I at Naqsh-e Rostam, (the Shushan of the Hebrew sources) where it is recorded as inscription as Hauja or Huja. This is in conformity with the same evolutionary process where the Old Persian changed the name Sindh into Hind /Hindustan. In Middle Persian the term evolves into Khuz and Kuzi The pre-Islamic Partho-Sassanid Inscriptions gives the name of the province as Khwuzestan. The Persians settlers had by the 6th century BC, mixed with the native Elamite population. The assimilation, however, does not seem to have concluded until after the Islamic invasion of the 7th century, when the Muslim writers still mention Khuzi to be the primary language of the inhabitant of the province. The seat of the province has for the most of its history been in the northern reaches of the land, first at Susa (Shush) and then at Shushtar. During a short spell in the Sasanian era, the capital of the province was moved to its geographical center, where the river town of Hormuz-Ardasher, founded over the foundation of the ancient Hoorpahir by Ardashir I, the founder of the Sassanid Dynasty in 3rd century AD. This town is now known as Ahwaz. However, later in the Sasanian time and throughout the Islamic era, the provincial seat returned and stayed at Shushter, until the late Qajar period. With the increase in the international sea commerce arriving on the shores of Khuzistan, Ahwaz became a more suitable location for the provincial capital. The River Karun is navigable all the way to Ahwaz (above which, it flows through rapids). The town was thus refurbished by the order of the Qajar king, Naser al-Din Shah and renamed after him, Naseri. Shushtar quickly declined, while Ahwaz/Naseri prospered to the present day. Currently, Khuzestan has 18 representatives in Iran's parliament, the Majlis, and 6 representatives in the Assembly of Experts. 143 Res. J. Fish & Hydrobiol., 6(3): 141-155, 2011 Etymology: Khouzi is referred to as people who make raw sugar from sugar cane fields of northern Sassanian planes up to Dez River side in Dezful.
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